Risk: Low Hydroelectric Power Plant Operational

Shuangbai Ejia Magahe River Hydroelectric Power Plant, Yunnan, China

China
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Overview

Shuangbai Ejia Magahe River is a 15 MW hydroelectric power plant in China. It generates renewable electricity from hydropower in Yunnan Province.

Shuangbai Ejia Magahe River is a hydroelectric power plant located in Yunnan Province, China, with an installed capacity of 15 MW. This facility contributes to China's renewable energy portfolio, leveraging the region's water resources for clean electricity generation. The plant operates under China's national energy regulations, which promote hydropower as a key component of the country's low-carbon transition. With a capacity of 15 MW, it falls within the small-scale hydro category, typical for run-of-river projects in mountainous areas. As a renewable energy source, the plant helps reduce reliance on fossil fuels and supports local grid stability. Its operation aligns with China's goals to increase non-fossil energy consumption and reduce carbon intensity.

Environmental context

The plant uses hydropower, a renewable energy source with low direct emissions. However, hydroelectric projects can affect local aquatic ecosystems and water flow regimes. The facility's location in Yunnan, a region with rich biodiversity, necessitates careful environmental management to mitigate impacts on river habitats.

Frequently asked questions

Shuangbai Ejia Magahe River is located in Yunnan Province, China, near coordinates 24.467 N, 101.250 E.

The plant has an installed capacity of 15 megawatts (MW), classifying it as a small-scale hydroelectric facility.

It is a hydroelectric power plant that generates electricity using the flow of the Magahe River.

Hydroelectric plants in China must comply with national renewable energy laws, water resource management regulations, and environmental impact assessment requirements.

As a renewable energy source, it supports China's target to increase non-fossil fuel energy consumption and reduce carbon emissions.
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